Liquid Chillers For Propylene Glycol (45%)

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Voltage

120V AC

240V AC

460V AC

Cooling Capacity

Less than 10,000 BTU/hr

10,000 BTU/hr to 19,999 BTU/hr

20,000 BTU/hr to 29,999 BTU/hr

30,000 BTU/hr to 99,999 BTU/hr

Maximum Flow Rate @ Pressure

Electrical Phase

Temperature Control

Compressor Power

Power

Less than 10,000 BTU/hr

10,000 BTU/hr to 19,999 BTU/hr

20,000 BTU/hr to 29,999 BTU/hr

30,000 BTU/hr to 99,999 BTU/hr

Pipe Size

NEMA Type

For Fluid Cooling System Type

Closed Loop

Open Loop

Pump Capacity @ Pressure

Tank Capacity

Height

Current

Mobility

Maximum Pressure

Maximum Temperature

Flow Capacity

Fitting Connection

U.S.–Mexico–Canada Agreement (USMCA) Qualifying

Yes

RoHS

Compliant

Compliant with Exemptions

Not Compliant

REACH

Compliant

Not Compliant

Export Control Classification Number (ECCN)

EAR99

DFARS Specialty Metals

Overall Height

83 Products

Liquid Chillers

Circulate water or glycol solutions to prevent spot-welding systems, molds, lasers, and other temperature-sensitive equipment from overheating. These chillers provide constant, uniform temperatures. An internal tank ensures liquid flows in a continuous loop. Adjust the set temperature with the keypad.

Bypass Valve—Chillers with a bypass valve recirculate liquid in the chiller if the outlet is obstructed.

Cooling Capacity—Cooling capacity is based on a 65° F liquid temperature and a 95° F room temperature.

Cannot Be Sold To—Liquid chillers cannot be sold to the listed areas due to chemical regulations.

							Overall
	Cooling Cap., BTU/hr	Current, amp	Compressor Power, hp	Max. Flow Rate @ Pressure	Max. Pressure, psi	Temp. Control Range, ° F	Ht.	Wd.	Dp.	Electrical Connection Type	Connection End Type	Tank Cap., gal.	Refrigerant No.	Features	Cannot Be Sold To		Each
120V AC (Single Phase)



		2,100	13	1/4	2 gpm @ 50 psi	50	50 to 80	28 5/8"	22"	21 1/8"	Plug In	—	5	R-513A	Bypass Valve, Electrical Controls with Shut-Off Switch, Liquid-Level Sight Glass	—	8472N11	000000000


		4,300	15.5	1/2	4 gpm @ 50 psi	50	50 to 80	28 5/8"	22"	21 1/8"	Plug In	—	5	R-513A	Bypass Valve, Electrical Controls with Shut-Off Switch, Liquid-Level Sight Glass	—	3531K15	00000000


		240V AC (Single Phase)



				11,300	17	1	4 gpm @ 50 psi	50	50 to 80	33 3/8"	31 1/8"	25 1/8"	Plug In	—	10	R-513A	Bypass Valve, Electrical Controls with Shut-Off Switch, Liquid-Level Sight Glass	—	3531K25	00000000


				240V AC (Three Phase)



						12,000	11	1 1/2	4 gpm @ 50 psi	50	50 to 80	33 3/8"	31 1/8"	25 1/8"	Hardwire	—	10	R-513A	Bypass Valve, Electrical Controls with Shut-Off Switch, Liquid-Level Sight Glass	—	8472N12	000000000


						24,000	22	2	10 gpm @ 35 psi	35	50 to 80	35 7/8"	34 1/8"	31 5/8"	Hardwire	—	10	R-513A	Bypass Valve, Cleanable Air-Intake Filter, Electrical Controls with Shut-Off Switch, Liquid-Level Sight Glass	—	3531K35	000000000


						460V AC (Three Phase)



								12,000	6	1	4 gpm @ 50 psi	50	50 to 80	33 3/8"	24 3/8"	34 3/8"	Plug In	Male Receptacle	12	R-513A	Bypass Valve, Electrical Cords with Shut-Off Switch, Liquid-Level Sight Glass	—	8472N17	00000000


								24,000	10	3	10 gpm @ 35 psi	35	50 to 80	35 5/8"	33 1/8"	31 5/8"	Hardwire	—	10	R-513A	Bypass Valve, Electrical Controls with Shut-Off Switch, Liquid-Level Sight Glass	—	8472N13	000000000
								36,000	11	3	10 gpm @ 45 psi	45	50 to 80	65"	37"	34 1/2"	Hardwire	—	36	R-407C	Bypass Valve, Cleanable Air-Intake Filter, Electrical Controls with Shut-Off Switch, Liquid-Level Sight Glass	California, Canada	3531K45	000000000
								54,000	16	5	15 gpm @ 45 psi	45	50 to 80	68 1/2"	37"	34 1/2"	Hardwire	—	36	R-513A	Bypass Valve, Cleanable Air-Intake Filter, Electrical Controls with Shut-Off Switch, Liquid-Level Sight Glass	—	3531K68	000000000
								78,400	26	10	30 gpm @ 40 psi	40	50 to 80	65 1/2"	37"	57"	Hardwire	—	50	R-513A	Bypass Valve, Cleanable Air-Intake Filter, Electrical Controls with Shut-Off Switch, Liquid-Level Sight Glass	—	8472N201	000000000

Precision Liquid Chillers


120V AC (Single Phase)	240V AC (Single Phase)

Protect your most temperature-sensitive equipment from overheating. These chillers keep liquids within 0.18° F of the temperature you set. Far more advanced than basic chillers—which are accurate within a few full degrees—they’re even precise enough for use in medical imaging machines. Fill these chillers with distilled water or glycol solutions, and an internal pump moves the liquid out to your equipment and back in a continuous loop. They’re often used with spot-welding systems, molds, lasers, and X-ray diffraction equipment. Use the built-in keypad to manually set the temperature, or connect an external controller of your own to automate temperature changes. View the set temperature, alerts, and other information on the LED display.

120V AC—120V AC chillers automatically replace their own filter, using a roller to swap in a fresh filter on a set schedule. Adjust the schedule to suit your application. A UV light system prevents algae and other bacteria growth, keeping the cooling liquid clean.

240V AC—240V AC chillers have a bypass valve knob to control the chiller’s flow rate and pressure, which can affect the temperature of your liquid and how efficiently these coolers run.

								Overall
	Cooling Cap., BTU/hr	Current, amp	Compressor Power, hp	Max. Flow Rate @ Pressure	Max. Pressure, psi	Temp. Control Range, ° F	Temp. Tolerance, ° F	Ht.	Wd.	Dp.	Electrical Connection Type	Tank Cap., gal.	Refrigerant No.		Each
120V AC (Single Phase)



		2,900	13.7	1/4	3.5 gpm @ 90 psi	90	15 to 155	-18 to 18	21 7/8"	15"	26"	Plug In	1.1	R-513A	8886T11	000000000


		5,940	17.4	1/2	3.5 gpm @ 90 psi	90	15 to 155	-18 to 18	21 7/8"	15"	26"	Plug In	1.1	R-513A	8886T12	00000000


		240V AC (Single Phase)



				10,920	15.5	1 1/4	6 gpm @ 45 psi	45	50 to 80	-0.09 to 0.09	30 9/16"	14 1/8"	31 13/16"	Plug In	1.5	R-513A	8886T301	00000000


				24,000	33.4	3	10 gpm @ 45 psi	45	50 to 80	-0.09 to 0.09	34 7/8"	18"	33 13/16"	Hardwire	2.5	R-513A	8886T302	000000000
				36,000	45.3	4 1/4	10 gpm @ 45 psi	45	50 to 80	-0.09 to 0.09	49 3/8"	18"	31 13/16"	Hardwire	2.5	R-513A	8886T303	000000000

Bench-Top Liquid Chillers

Send cool water to equipment right from your bench top without compromising precision. These chillers maintain constant, uniform temperatures within 0.2° F where other chillers only keep liquid cool within a few full degrees. This makes them ideal for equipment where small temperature changes could cause an issue, such as microscope cooling plates.

Fill these chillers with water or glycol solutions, and an internal pump moves the liquid through a cooling system and out to your equipment. Use the built-in keypad to manually set the temperature, or connect an external controller of your own to automate temperature changes. View the set temperature, alerts, and other information from the LED display.

								Overall
	Cooling Cap., BTU/hr	Voltage (Electrical Phase)	Current, amp	Compressor Power, hp	Max. Flow Rate @ Pressure	Max. Pressure, psi	Temp. Control Range, ° F	Ht.	Wd.	Dp.	Accuracy	Tank Cap., fl. oz.	Refrigerant No.	Features		Each
For Closed-Loop Fluid Cooling Systems







				Refrigerant Cooled

				3,400	120V AC (Single Phase)	3.3	1/6	6 gpm @ 16 psi	16	0 to 80	18 7/16"	9 1/8"	18 3/16"	±1.8%	51	R-513A	UV Light System	6592N11	000000000

Wraparound Coolers


For 275 gal. Containers	For 5-, 15-, 30-, and 55-Gal. Containers

Cool the contents of your pail, drum, or tote from the outside. Since they cool from the outside, there's no risk of introducing contaminants to your material. These coolers are often used to stabilize solutions or keep liquids from evaporating. Connect them to a chiller or water source to circulate cold liquid around your container. Secure them with elastic straps. When they’re filled, these coolers conform to the surface of a container, eliminating air pockets to cool evenly. A layer of insulation locks in the cold and reduces condensation. As liquid flows out of these coolers, you can channel it back into your chiller or empty it into a drain.

You can also use these coolers to keep material warm—they circulate fluid up to 120° F. When using them at temperatures above 45° F, fill with water only.

	For Container								Overall
	Dia.	Wd.	Dp.	Ht.	Max. Flow Rate @ Pressure	Max. Pressure, psi	Environment Temp. Range, ° F	Fluid Temp. Range, ° F	Lg.	Wd.	For Tube ID	For Surface Material	Material	Insulation Material	Includes		Each
Clamp-on-Barbed Tube Connection







				For 5 gal. Containers

				11 13/16"	—	—	15 5/8"	4 gpm @ 5 psi	20	-10 to 150	-10 to 120	39"	8 1/4"	5/8"	Fiberglass, Metal, Plastic	Vinyl Plastic	Foam	10 ft. Tubing, 2 Worm-Drive Clamps	6884N11	0000000




						For 15 gal. Containers

						14 1/2"	—	—	26 5/16"	4 gpm @ 5 psi	20	-10 to 150	-10 to 120	50"	22 1/2"	5/8"	Fiberglass, Metal, Plastic	Vinyl Plastic	Foam	10 ft. Tubing, 2 Worm-Drive Clamps	6884N12	000000




								For 30 gal. Containers

								20"	—	—	29 1/2"	4 gpm @ 5 psi	20	-10 to 150	-10 to 120	60"	22 1/2"	5/8"	Fiberglass, Metal, Plastic	Vinyl Plastic	Foam	10 ft. Tubing, 2 Worm-Drive Clamps	6884N13	000000




										For 55 gal. Containers

										23 5/16"	—	—	34 7/8"	4 gpm @ 5 psi	20	-10 to 150	-10 to 120	75"	31 3/4"	5/8"	Fiberglass, Metal, Plastic	Vinyl Plastic	Foam	10 ft. Tubing, 2 Worm-Drive Clamps	6884N14	00000000




												For 275 gal. Containers

												—	40"	48"	46"	4 gpm @ 5 psi	20	-10 to 150	-10 to 120	171"	39"	5/8"	Fiberglass, Metal, Plastic	Vinyl Plastic	Foam	10 ft. Tubing, 2 Worm-Drive Clamps	6884N15	00000000

High-Efficiency Heat Exchangers


2 Mounting Holes	4 Mounting Holes	2 Mounting Studs	With Four Mounting Studs

Stacked, corrugated plates maximize contact with liquid or steam flowing through these brazed plate heat exchangers for faster heat transfer than shell and tube heat exchangers. Plates are brazed in a vacuum furnace to ensure 100% sealed construction.

ASME BPVC.VIII.1 Certified Heat Exchangers—ASME BPVC VIII.1 copper-brazed heat exchangers have a Btu/hr. cooling capacity based on cooling 100 SSU oil to 125° F using 85° F water. They meet the ASME Boiler and Pressure Vessel Code (BPVC) for construction of pressure vessels.

Nickel-Brazed 316 Stainless Steel Plate—Nickel-brazed heat exchangers have a Btu/hr. cooling capacity based on cooling oil from 140° to 120° F using 70° F water.

Copper-Brazed 316 Stainless Steel Plate—Copper-brazed heat exchangers have a Btu/hr. cooling capacity based on cooling water from 120° to 100° F using 70° F water.

									Overall			Mounting Hole		Mounting Stud
	Heating/Cooling Cap., BTU/hr	Surface Area, ft²	Temp. Range, ° F	Pipe Size	Thread Type	Gender	Flow Cap., gpm	Max. Pressure, psi	Ht.	Wd.	Dp.	No. of	Dia.	No. of	Thread Size	Lg.		Each
Heat Exchangers







				Nickel-Brazed 316 Stainless Steel Plate

				16,000	3.1	-320 to 390	1	NPT	Male	4	360	13 3/16"	4 7/8"	2 3/16"	—	—	4	M10	13/16"	3253K31	0000000


				37,000	6.8	-320 to 390	1	NPT	Male	9	360	13 3/16"	4 7/8"	3 1/16"	—	—	4	M10	13/16"	3253K32	00000000
				56,000	10.6	-320 to 390	1	NPT	Male	13	360	13 3/16"	4 7/8"	4"	—	—	4	M10	13/16"	3253K33	00000000
				74,000	14.3	-320 to 390	1	NPT	Male	18	360	13 3/16"	4 7/8"	4 7/8"	—	—	4	M10	13/16"	3253K34	00000000
				120,000	40.7	-320 to 390	2	NPT	Male	30	390	20 15/16"	10 11/16"	4 1/16"	—	—	4	M12	1 3/16"	3253K35	00000000


				UL Listed Heat Exchangers







								Copper-Brazed 316 Stainless Steel Plate

								69,000	2.2	-320 to 350	3/4	NPT	Male	7	450	9 1/8"	3 1/2"	2 5/8"	—	—	2	M8	20 mm	35115K61	000000


								112,000	3	-320 to 350	1	NPT	Male	8	450	13 3/16"	5"	1 1/4"	—	—	4	M10	20 mm	35115K62	000000
								270,000	6.8	-320 to 350	1	NPT	Male	19	450	13 3/16"	5"	2"	—	—	4	M8	20 mm	35115K63	000000
								574,000	14.3	-320 to 350	1	NPT	Male	40	450	13 3/16"	5"	4"	—	—	4	M10	20 mm	35115K64	000000
								780,000	21.9	-320 to 350	1 1/4	NPT	Male	53	450	13 3/16"	5"	5 3/4"	—	—	4	M8	20 mm	35115K65	00000000
								998,000	36.8	-320 to 350	2	NPT	Male	105	300	20 5/16"	9 13/16"	3.06"	—	—	4	1/2"-13	1 1/2"	35115K66	00000000
								1,710,000	68.3	-320 to 390	2	NPT	Male	120	450	20 15/16"	10 11/16"	4 15/16"	—	—	4	M12	30 mm	35115K77	00000000


								ASME BPVC.VIII.1 Certified Heat Exchangers







												Copper-Brazed 316 Stainless Steel Plate

												5,000	4.8	-310 to 450	3/4	NPT	Male	27	435	8 7/16"	3 3/16"	4 7/16"	2	9/32"	—	—	—	8546T11	000000


												12,000	7.9	-310 to 450	1	NPT	Male	29	435	12 3/16"	4 3/8"	4 1/4"	2	13/32"	—	—	—	8546T12	000000
												17,000	10.7	-310 to 450	1	NPT	Male	37	435	12 3/16"	4 3/8"	5 1/4"	2	13/32"	—	—	—	8546T13	000000
												50,000	15.6	-310 to 450	1	NPT	Male	22	435	20 11/16"	4 3/8"	4 1/4"	2	13/32"	—	—	—	8546T14	000000
												75,000	26.8	-310 to 450	1	NPT	Male	34	435	20 11/16"	4 3/8"	6 3/16"	2	13/32"	—	—	—	8546T15	00000000
												125,000	29.7	-310 to 450	2	NPT	Male	57	435	24 5/16"	7 1/2"	5 3/4"	4	1/2"	—	—	—	8546T16	00000000
												380,000	82.8	-310 to 450	2	NPT	Male	141	435	24 5/16"	7 1/2"	11 1/2"	4	1/2"	—	—	—	8546T17	00000000

Heat Exchangers

Also known as shell and tube heat exchangers, these transfer heat using liquid or steam that flows through the shell to heat or cool liquid in the tubes. They’re commonly used in refrigeration and engine cooling systems.

NPT Female Threaded Shell-Side and Tube-Side Connections

Image of Product. Front orientation. Heat Exchangers. Heat Exchangers, Threaded.

316 Stainless Steel Shell—Heat exchangers with a 316 stainless steel shell are the most corrosion resistant.

Baffled Tubes—Heat exchangers with baffled tubes direct liquid to make four passes through the tubes for more efficient heat transfer than other heat exchangers.

316 Stainless Steel Tube—Heat exchangers with 316 stainless steel tubes are the most corrosion resistant.

Heating/Cooling Capacity—Btu/hr. cooling capacity is based on cooling 180° F process water with 85° F water and a 10 psi pressure difference.

				Temp., ° F		Shell-Side			Tube Side			Overall
	Heating/Cooling Cap., BTU/hr	Surface Area, ft²	No. of Passes	Min.	Max.	Pipe Size	Flow Cap., gpm	Max. Pressure, psi	Pipe Size	Flow Cap., gpm	Max. Pressure, psi	Lg.	Head Dia.		Each
Brass Shell and Baffled Copper Tube



		130,000	2.4	4	-20	300	1	24	300	3/4	12	150	10 7/8"	4 3/16"	34965K52	000000000


		195,000	4.3	4	-20	300	1	24	300	3/4	12	150	16 7/8"	4 3/16"	34965K53	00000000
		280,000	7.4	4	-20	300	1	24	300	3/4	12	150	26 7/8"	4 3/16"	34965K54	00000000
		350,000	9.1	4	-20	300	1 1/2	60	300	1	30	150	18 1/8"	6 1/2"	34965K55	00000000
		560,000	15.7	4	-20	300	1 1/2	60	300	1	30	150	28 1/8"	6 1/2"	34965K56	00000000
		890,000	23	4	-20	300	2	73	300	1 1/2	57	150	29"	7 1/2"	34965K57	00000000
		1,115,000	34	4	-20	300	2	73	300	1 1/2	57	150	41"	7 1/2"	34965K58	00000000
		1,585,000	41	4	-20	300	3	140	300	2	104	150	30 3/8"	9 3/4"	34965K59	00000000
		2,000,000	62	4	-20	300	3	140	300	2	105	150	42 3/8"	9 3/4"	34965K61	00000000


		Steel Shell and Baffled Copper Tube



				195,000	4.3	4	-20	300	1	22	300	3/4	12	150	17"	4 1/2"	3222K53	00000000


				280,000	7.4	4	-20	300	1	30	300	3/4	12	150	27"	4 1/2"	3222K54	00000000
				350,000	9.1	4	-20	300	1 1/2	32	300	1	30	150	18 11/16"	6 3/4"	3222K55	00000000
				560,000	15.7	4	-20	300	1 1/2	43	300	1	30	150	28 11/16"	6 3/4"	3222K56	00000000
				890,000	23	4	-20	300	2	51	300	1 1/2	57	150	29"	7 3/4"	3222K57	00000000
				1,115,000	34	4	-20	300	2	103	300	1 1/2	57	150	41"	7 3/4"	3222K58	00000000
				1,585,000	41	4	-20	300	3	103	300	2	104	150	30 1/2"	10 1/2"	3222K59	00000000
				2,000,000	62	4	-20	300	3	103	300	2	105	150	42 1/2"	10 1/2"	3222K61	00000000


				Steel Shell and Copper Tube



						Not Rated	15	2	Not Rated	400	2 1/2 (Inlet); 1 1/4 (Outlet)	38	100	1 1/4	38	100	28 5/8"	6"	3586K31	00000000


						316 Stainless Steel Shell and Baffled 316 Stainless Steel Tube



								130,000	2.4	4	-20	450	1	32	225	3/4	12	150	10 3/8"	4 3/16"	35185K42	00000000


								195,000	4.3	4	-20	450	1	32	225	3/4	12	150	16 3/8"	4 3/16"	35185K43	00000000
								280,000	7.4	4	-20	450	1	32	225	3/4	12	150	26 3/8"	4 3/16"	35185K44	00000000
								350,000	9.1	4	-20	450	1 1/2	76	225	1	30	150	17 13/16"	6 1/2"	35185K45	00000000
								560,000	15.7	4	-20	450	1 1/2	76	225	1	30	150	27 13/16"	6 1/2"	35185K46	00000000
								890,000	23	4	-20	450	2	126	225	1 1/2	57	150	28 1/8"	7 1/2"	35185K47	00000000
								1,115,000	34	4	-20	450	2	126	225	1 1/2	57	150	40 1/8"	7 1/2"	35185K48	00000000
								1,585,000	41	4	-20	450	3	220	225	2	104	150	28"	9 3/4"	35185K49	00000000
								2,000,000	62	4	-20	450	3	220	225	2	105	150	40"	9 3/4"	35185K51	00000000

NPT Female Threaded Shell-Side and Tube-Side Connections—ASME BPVC.VIII.1 Certified

ASME BPVC VIII.1 heat exchangers meet the ASME Boiler and Pressure Vessel Code (BPVC) for construction of pressure vessels.

Heating/Cooling Capacity—Btu/hr. cooling capacity is based on cooling 180° F process water with 85° F water and a 10 psi pressure difference.

				Temp., ° F		Shell-Side			Tube Side			Overall
	Heating/Cooling Cap., BTU/hr	Surface Area, ft²	No. of Passes	Min.	Max.	Pipe Size	Flow Cap., gpm	Max. Pressure, psi	Pipe Size	Flow Cap., gpm	Max. Pressure, psi	Lg.	Head Dia.		Each
Steel Shell and Copper Tube



		150,000	4.5	2	-20	375	2 (Inlet); 1 (Outlet)	44	150	1 1/2	44	150	28 1/2"	7 1/4"	3586K41	000000000


		420,000	6.8	2	-20	375	2 (Inlet); 1 (Outlet)	44	150	1 1/2	44	150	40 1/2"	7 1/4"	3586K42	00000000
		720,000	9.2	2	-20	375	3 (Inlet); 1 (Outlet)	44	150	1 1/2	44	150	52 1/2"	7 1/4"	3586K43	00000000
		1,350,000	17.4	2	-20	375	2 1/2 (Inlet); 1 (Outlet)	175	150	2	175	150	53 1/4"	10 1/2"	3586K44	00000000

NPT Female Flanged Shell-Side Inlet Connections and Threaded Tube-Side Connections

Image of Product. Front orientation. Heat Exchangers. Heat Exchangers, Flanged.

Heating/Cooling Capacity—Btu/hr. cooling capacity is based on cooling 180° F process water with 85° F water and a 10 psi pressure difference.

				Temp.		Shell-Side			Tube Side			Overall
	Heating/Cooling Cap.	Surface Area, ft²	No. of Passes	Min.	Max., ° F	Pipe Size	Flow Cap., gpm	Max. Pressure, psi	Pipe Size	Flow Cap., gpm	Max. Pressure, psi	Lg.	Head Dia.		Each
Steel Shell and Copper Tube



		Not Rated	30.2	2	Not Rated	400	4 (Inlet); 1 1/2 (Outlet)	100	100	2	100	100	39 3/4"	8 1/8"	3586K33	000000000


		Not Rated	38.8	2	Not Rated	400	4 (Inlet); 1 1/2 (Outlet)	100	100	2	100	100	51 3/4"	8 1/8"	3586K34	00000000
		Not Rated	72.4	2	Not Rated	400	6 (Inlet); 2 (Outlet)	180	100	2 1/2	180	100	53"	10 1/8"	3586K35	00000000

Heat Exchangers for Sampling

Often used to monitor boiler water quality without shutting down the system, these heat exchangers cool hot liquid samples to safe temperatures for testing. Sample liquid flows through the tubes, and cold water from an external water supply flows around the tubes to cool the liquid in the tubes. Cooled sample water then flows out of the heat exchanger for analysis.

NPT Female Threaded Shell-Side and Tube-Side Connections


1.3 ft² Surface Area	3.8 ft² Surface Area

316 Stainless Steel Tube—316 stainless steel tubes have the best corrosion resistance.

1.3 ft² Surface Area—Heat exchangers with 1.3 ft² surface area are often used for sampling liquid from a boiler.

3.8 ft² Surface Area—Heat exchangers with 3.8 ft² surface area are good for sampling steam from a boiler or for continuously cooling sample water.

			Shell-Side				Tube Side				Overall
	Heating/Cooling Cap.	Surface Area, ft²	Pipe Size	Flow Cap., gpm	Max. Pressure, psi	Max. Temp., ° F	Pipe Size	Flow Cap., gpm	Max. Pressure, psi	Max. Temp., ° F	Lg.	Head Dia.		Each
Steel Shell and Copper Tube



		Not Rated	1.3	1/4	2	150	450	1/4	4	300	400	17 1/4"	3 1/2"	3613K31	0000000


		Steel Shell and 316 Stainless Steel Tube



				Not Rated	1.3	1/4	2	150	450	1/4	4	3,000	750	17 1/4"	3 1/2"	3613K41	000000


				Not Rated	3.8	3/8	2	150	450	1/4	4	4,900	750	32 5/8"	—	3613K61	00000000

High-Pressure Heat Exchangers

With more than three times the pressure rating of standard heat exchangers, these are often used for high-pressure condensing, evaporating, heating, and cooling. Also known as shell and tube heat exchangers, they transfer heat using liquid or steam that flows through the shell to heat or cool liquid in the tubes.

NPT Female Threaded Shell-Side and Tube-Side Connections

Image of Product. Front orientation. Heat Exchangers. High-Pressure Heat Exchangers.

316 Stainless Steel Shell—Shell is 316 stainless steel for excellent corrosion resistance.

316 Stainless Steel Tube—Tubes are 316 stainless steel for excellent corrosion resistance.

Heating/Cooling Capacity—Btu/hr. cooling capacity is based on cooling 180° F process water with 85° F water and a 10 psi pressure difference.

				Temp., ° F		Shell-Side			Tube Side			Overall
	Heating/Cooling Cap., BTU/hr	Surface Area, ft²	Max. Pressure for Steam, psi	Min.	Max.	Pipe Size	Flow Cap., gpm	Max. Pressure, psi	Pipe Size	Flow Cap., gpm	Max. Pressure, psi	Lg.	Head Dia.		Each
316 Stainless Steel Shell and 316 Stainless Steel Tube



		59,000	0.4	125	-320	800	1/4	4.8	1,000	3/8	10.9	1,500	9 3/4"	1 1/8"	3771K14	000000000


		65,500	0.61	125	-320	800	1/4	4.4	1,000	3/8	9.3	1,500	13 3/4"	1 1/8"	3771K15	00000000
		76,500	0.58	125	-320	800	1/4	4.8	1,000	3/8	10.1	1,500	9 3/4"	1 1/8"	3771K11	00000000
		90,000	0.89	125	-320	800	1/4	4.4	1,000	3/8	8.4	1,500	13 3/4"	1 1/8"	3771K12	00000000
		98,000	1.19	125	-320	800	1/4	4.2	1,000	3/8	7.3	1,500	17 3/4"	1 1/8"	3771K13	00000000

Low-Temperature Liquid Chillers

Chill coolant down to 15° F regardless of the ambient air temperature. These chillers are often used when you want to maintain temperatures below freezing, such as in food processing and for sensitive electronic components. They take your fluid down to a constant uniform temperature and pump that liquid into your cooling system. Monitor the temperature and pressure of the coolant on the LCD display and change the settings using the keypad. They have a window to quickly check the fluid level. This window also acts as a spot to drain or fill the chiller.

								Overall
	Cooling Cap., BTU/hr	Voltage (Electrical Phase)	Current, amp	Compressor Power, hp	Max. Flow Rate @ Pressure	Max. Pressure, psi	Temp. Control Range, ° F	Ht.	Wd.	Dp.	Tank Cap., gal.	Refrigerant No.	Features		Each
For Closed-Loop Fluid Cooling Systems



		13,600	460V AC (Three Phase)	15	3	10 gpm @ 28 psi	150	15 to 40	54 3/8"	33 7/8"	35 1/2"	12	R-513A	Liquid-Level Sight Glass	7883N12	0000000000